Considerations for Relay Operation in Next Generation Wi-Fi Networks

1. November 2023 doc.: IEEE 802.11-23/1889r0 Considerations for Relay Operation in Next Generation Wi-Fi Networks Date: 11-03-2023 Authors: Name Peshal Nayak Affiliations Samsung Address Phone email p.nayak@samsung.com Yue Qi Boon Loong Ng Rubayet Shafin Vishnu Ratnam Elliot Jen Submission Slide 1 Peshal Nayak, Samsung Research America

2. November 2023 doc.: IEEE 802.11-23/1889r0 Abstract • In this presentation we provide some thoughts on design aspects for relay feature development. Submission Slide 2 Peshal Nayak, Samsung Research America

3. November 2023 doc.: IEEE 802.11-23/1889r0 Introduction • To improve reliability and throughput, the UHR PAR document considers Rate-vs-Range (RvR) throughput improvement as one of the main objectives. • Several contributions have considered relay as a candidate solution for range extension and discussed different aspects that need to be considered for relay feature development [1]-[5] • In this contribution, we provide our views on relay feature and discuss some high level technical directions that can be considered for the relay feature development. Submission Slide 3 Peshal Nayak, Samsung Research America

4. November 2023 doc.: IEEE 802.11-23/1889r0 Relay Use Case An indoor Wi-Fi network today can have areas with weak connections and in some cases even dead zones • If a user walks in and out of these areas, the application performance and user experience can degrade. • In such scenarios, a relay can enable the device to maintain good connection and avoid degradation in user experience. • The home network can have a number of smart home devices that can support Wi-Fi and can act as a relay to enhance AP coverage in weak areas/dead zones. • Other use cases for relay have been discussed in prior work. E.g., Automotive use case involving rear side device to dashboard communication[1] • Submission Slide 4 Peshal Nayak, Samsung Research America

5. November 2023 doc.: IEEE 802.11-23/1889r0 Relay Operation • A number of aspects of relay operation have been discussed in UHR SG: • Relay architecture [4] • Features to consider for relay operation [3] • Simulation results to show benefits of relay operation [1], etc. • In this contribution, we present some of our high level thoughts and directions that can be considered for relay feature development. Submission Slide 5 Peshal Nayak, Samsung Research America

6. November 2023 doc.: IEEE 802.11-23/1889r0 Discovery of Relay For a STA to be able to leverage relay operation: • The STA should be able to discover relays in its vicinity • The STA should be able to identify which of these relays can help to communicate with the AP that it is connected to. • Advertisement of relays can be helpful • AP side advertisement of relay devices that its associated STAs can connect to can be helpful. This can create an awareness amongst its associated STAs about the support and in STA-side decision making. • Relay side advertisement can also be useful. This can enable STAs to search for relays in its vicinity and connect to them when necessary. • Submission Slide 6 Peshal Nayak, Samsung Research America

7. November 2023 doc.: IEEE 802.11-23/1889r0 Temporary Unavailability Handling Procedures • Relay may not be available to serve STA’s traffic due to a number of factors. • One possibility is when the relay faces an overload condition: • Handling of relay’s own traffic along with those of the STAs that the relay is serving. E.g., a smart home device that can have its own traffic to perform its smart home related operations. • Increase in load of the STAs that a relay is currently serving or addition of new STAs that have high load traffic. • If relay has AP functionalities (e.g., something similar to a hotspot today), the relay can have traffic of its own BSS that needs to be handled. • Another possibility could be due to power save. E.g., when relay is a battery powered device. STA AP Relay Relay’s BSS Since there is a possibility of a relay encountering such a situation, procedures to avoid/handle such situations can be beneficial: • Procedure to advertise the relay’s capability and constraints in advance • Procedure to temporarily pause relay operation/addition of new STAs and resume at a later point when conditions are favorable • STA AP Relay Relay’s traffic Submission Slide 7 Peshal Nayak, Samsung Research America

8. November 2023 doc.: IEEE 802.11-23/1889r0 Mobility Management in Relay Operation • STA’s transition from AP to relay: • As a user walks into an area with weak connection/dead zone from the AP’s coverage point of view, the STA may want to transition from AP to relay for maintaining its connection. • As the user walks out of the area, the STA may want to switch back. • Design of a low overhead procedure to enable transition from AP to relay and back can be useful. STA’s transition from one relay to another relay: • There can be more than one relay available for an STA. As the user moves around, the optimal relay can change over time. • Design of a low overhead procedure to transition from the current relay to a new relay can be beneficial. • Submission Slide 8 Peshal Nayak, Samsung Research America

9. November 2023 doc.: IEEE 802.11-23/1889r0 Low Latency Application Support in Relay Operation • With relay operation, STA’s traffic now faces a multi-hop transmission to the AP compared to the single hop transmission prior to switching to a relay. • This can cause some additional delay for low latency traffic (e.g., due to additional channel access delays for the relay to access the medium). • Procedures that can enable support for an STA’s low latency traffic after it switches to a relay are important. • E.g., enhanced channel access mechanism if relay is expected to contend for the medium Submission Slide 9 Peshal Nayak, Samsung Research America

10. November 2023 doc.: IEEE 802.11-23/1889r0 Conclusion • In this contribution, we discuss some design aspects that can be considered for relay feature development in 802.11bn: • Relay discovery • Temporary unavailability Handling • Mobility management procedures for relay operation • Low latency application support in relay operation Submission Slide 10 Peshal Nayak, Samsung Research America

11. November 2023 doc.: IEEE 802.11-23/1889r0 References [1] UHR Rate-vs-Range Enhancement with Relay, IEEE 802.11-22/1908r1 [2] Thought for Range Extension in UHR, IEEE 802.11-23/0042r0 [3] Features to consider for efficient Relay operation, IEEE 802.11-23/1138r1 [4] Consideration on UHR Relay Architecture, IEEE 802.11-23/1450r1 [5] UHR Relay Follow-up, IEEE 802.11-23/1175r0 Submission Slide 11 Peshal Nayak, Samsung Research America